/*
 * Copyright (C) 2017 Jared Rummler
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package com.jaredrummler.android.colorpicker;

import android.content.Context;
import android.content.res.TypedArray;
import android.graphics.Bitmap;
import android.graphics.Bitmap.Config;
import android.graphics.Canvas;
import android.graphics.Color;
import android.graphics.ComposeShader;
import android.graphics.LinearGradient;
import android.graphics.Paint;
import android.graphics.Paint.Align;
import android.graphics.Paint.Style;
import android.graphics.Path;
import android.graphics.Point;
import android.graphics.PorterDuff;
import android.graphics.Rect;
import android.graphics.RectF;
import android.graphics.Shader;
import android.graphics.Shader.TileMode;
import android.os.Build;
import android.os.Bundle;
import android.os.Parcelable;
import android.support.annotation.RequiresApi;
import android.util.AttributeSet;
import android.util.Log;
import android.util.TypedValue;
import android.view.MotionEvent;
import android.view.View;

/**
 * Displays a color picker to the user and allow them to select a color. A slider for the alpha channel is also available.
 * Enable it by setting setAlphaSliderVisible(boolean) to true.
 */
@RequiresApi(api = Build.VERSION_CODES.LOLLIPOP)
public class ColorPickerView extends View {

    private final static int DEFAULT_BORDER_COLOR = 0xFF6E6E6E;
    private final static int DEFAULT_SLIDER_COLOR = Color.WHITE;

    private final static int HUE_PANEL_WDITH_DP = 30;
    private final static int ALPHA_PANEL_HEIGH_DP = 30;
    private final static int BAR_SPACE_HEIGHT_DP = 30;
    private final static int PANEL_SPACING_DP = 10;
    private final static int CIRCLE_TRACKER_RADIUS_DP = 5;
    private final static int SLIDER_TRACKER_SIZE_DP = 4;
    private final static int SLIDER_TRACKER_OFFSET_DP = 2;

    /**
     * The width in pixels of the border
     * surrounding all color panels.
     */
    private final static int BORDER_WIDTH_PX = 1;

    /**
     * The width in px of the hue panel.
     */
    private int huePanelWidthPx;
    /**
     * The height in px of the alpha panel
     */
    private int alphaPanelHeightPx;
    /**
     * The distance in px between the different
     * color panels.
     */
    private int panelSpacingPx;
    /**
     * The radius in px of the color palette tracker circle.
     */
    private int circleTrackerRadiusPx;
    /**
     * The px which the tracker of the hue or alpha panel
     * will extend outside of its bounds.
     */
    private int sliderTrackerOffsetPx;
    /**
     * Height of slider tracker on hue panel,
     * width of slider on alpha panel.
     */
    private int sliderTrackerSizePx;

    private Paint satValPaint;
    private Paint satValTrackerPaint;

    private Paint alphaPaint;
    private Paint alphaTextPaint;
    private Paint hueAlphaTrackerPaint;

    private Paint borderPaint;

    private Shader valShader;
    private Shader satShader;
    private Shader alphaShader;

    /*
     * We cache a bitmap of the sat/val panel which is expensive to draw each time.
     * We can reuse it when the user is sliding the circle picker as long as the hue isn't changed.
     */
    private BitmapCache satValBackgroundCache;
    /* We cache the hue background to since its also very expensive now. */
    private BitmapCache hueBackgroundCache;

    /* Current values */
    private int alpha = 0xff;
    private float hue = 360f;
    private float sat = 0f;
    private float val = 0f;

    private boolean showAlphaPanel = false;
    private String alphaSliderText = null;
    private int sliderTrackerColor = DEFAULT_SLIDER_COLOR;
    private int borderColor = DEFAULT_BORDER_COLOR;

    /**
     * Minimum required padding. The offset from the
     * edge we must have or else the finger tracker will
     * get clipped when it's drawn outside of the view.
     */
    private int mRequiredPadding;

    /**
     * The Rect in which we are allowed to draw.
     * Trackers can extend outside slightly,
     * due to the required padding we have set.
     */
    private Rect drawingRect;

    private Rect satValRect;
    private Rect hueRect;
    private Rect alphaRect;

    private Point startTouchPoint = null;

    private AlphaPatternDrawable alphaPatternDrawable;
    private OnColorChangedListener onColorChangedListener;
    private LinearGradient shader;

    private int barSpaceHeightPx;


    private int SAT_VAL_COUNT = 9;


    public ColorPickerView(Context context) {
        this(context, null);
    }

    public ColorPickerView(Context context, AttributeSet attrs) {
        this(context, attrs, 0);
    }

    public ColorPickerView(Context context, AttributeSet attrs, int defStyle) {
        super(context, attrs, defStyle);
        init(context, attrs);
    }

    @Override
    public Parcelable onSaveInstanceState() {
        Bundle state = new Bundle();
        state.putParcelable("instanceState", super.onSaveInstanceState());
        state.putInt("alpha", 0xff);
        state.putFloat("hue", hue);
        state.putFloat("sat", sat);
        state.putFloat("val", val);
        state.putBoolean("show_alpha", false);
        state.putString("alpha_text", alphaSliderText);

        return state;
    }

    @Override
    public void onRestoreInstanceState(Parcelable state) {

        if (state instanceof Bundle) {
            Bundle bundle = (Bundle) state;

            alpha = bundle.getInt("alpha");
            hue = bundle.getFloat("hue");
            sat = bundle.getFloat("sat");
            val = bundle.getFloat("val");
            showAlphaPanel = bundle.getBoolean("show_alpha");
            alphaSliderText = bundle.getString("alpha_text");

            state = bundle.getParcelable("instanceState");
        }
        super.onRestoreInstanceState(state);
    }

    private void init(Context context, AttributeSet attrs) {
        //Load those if set in xml resource file.
        TypedArray a = getContext().obtainStyledAttributes(attrs, R.styleable.ColorPickerView);
        showAlphaPanel = a.getBoolean(R.styleable.ColorPickerView_cpv_alphaChannelVisible, false);
        alphaSliderText = a.getString(R.styleable.ColorPickerView_cpv_alphaChannelText);
        sliderTrackerColor = a.getColor(R.styleable.ColorPickerView_cpv_sliderColor, 0xFFBDBDBD);
        borderColor = a.getColor(R.styleable.ColorPickerView_cpv_borderColor, 0xFF6E6E6E);
        a.recycle();

        applyThemeColors(context);

        huePanelWidthPx = DrawingUtils.dpToPx(getContext(), HUE_PANEL_WDITH_DP);
        alphaPanelHeightPx = DrawingUtils.dpToPx(getContext(), ALPHA_PANEL_HEIGH_DP);
        barSpaceHeightPx = DrawingUtils.dpToPx(getContext(), BAR_SPACE_HEIGHT_DP);
        panelSpacingPx = DrawingUtils.dpToPx(getContext(), PANEL_SPACING_DP);
        circleTrackerRadiusPx = DrawingUtils.dpToPx(getContext(), CIRCLE_TRACKER_RADIUS_DP);
        sliderTrackerSizePx = DrawingUtils.dpToPx(getContext(), SLIDER_TRACKER_SIZE_DP);
        sliderTrackerOffsetPx = DrawingUtils.dpToPx(getContext(), SLIDER_TRACKER_OFFSET_DP);

        mRequiredPadding = getResources().getDimensionPixelSize(R.dimen.cpv_required_padding);

        initPaintTools();

        //Needed for receiving trackball motion events.
        setFocusable(true);
        setFocusableInTouchMode(true);
    }

    private void applyThemeColors(Context c) {
        // If no specific border/slider color has been
        // set we take the default secondary text color
        // as border/slider color. Thus it will adopt
        // to theme changes automatically.

        final TypedValue value = new TypedValue();
        TypedArray a = c.obtainStyledAttributes(value.data, new int[]{android.R.attr.textColorSecondary});

        if (borderColor == DEFAULT_BORDER_COLOR) {
            borderColor = a.getColor(0, DEFAULT_BORDER_COLOR);
        }

        if (sliderTrackerColor == DEFAULT_SLIDER_COLOR) {
            sliderTrackerColor = a.getColor(0, DEFAULT_SLIDER_COLOR);
        }

        a.recycle();
    }

    private void initPaintTools() {

        satValPaint = new Paint();
        satValTrackerPaint = new Paint();
        hueAlphaTrackerPaint = new Paint();
        alphaPaint = new Paint();
        alphaTextPaint = new Paint();
        borderPaint = new Paint();

        satValTrackerPaint.setStyle(Style.STROKE);
        satValTrackerPaint.setStrokeWidth(DrawingUtils.dpToPx(getContext(), 2));
        satValTrackerPaint.setAntiAlias(true);

        hueAlphaTrackerPaint.setColor(sliderTrackerColor);
        hueAlphaTrackerPaint.setStyle(Style.STROKE);
        hueAlphaTrackerPaint.setStrokeWidth(DrawingUtils.dpToPx(getContext(), 2));
        hueAlphaTrackerPaint.setAntiAlias(true);

        alphaTextPaint.setColor(0xff1c1c1c);
        alphaTextPaint.setTextSize(DrawingUtils.dpToPx(getContext(), 14));
        alphaTextPaint.setAntiAlias(true);
        alphaTextPaint.setTextAlign(Align.CENTER);
        alphaTextPaint.setFakeBoldText(true);

    }

    @Override
    protected void onDraw(Canvas canvas) {
        if (drawingRect.width() <= 0 || drawingRect.height() <= 0) {
            return;
        }

        //        drawSatValPanel(canvas);
        drawSatValPanelHorizontal(canvas);
        //        drawHuePanel(canvas);
        drawHuePanelHorizontal(canvas);
        //        drawAlphaPanel(canvas);

    }

    private void drawSatValPanel(Canvas canvas) {
        final Rect rect = satValRect;

        if (BORDER_WIDTH_PX > 0) {
            borderPaint.setColor(borderColor);
            canvas.drawRect(drawingRect.left, drawingRect.top,
                    rect.right + BORDER_WIDTH_PX,
                    rect.bottom + BORDER_WIDTH_PX, borderPaint);
        }

        if (valShader == null) {
            //Black gradient has either not been created or the view has been resized.
            valShader = new LinearGradient(rect.left, rect.top, rect.left, rect.bottom, 0xffffffff, 0xff000000, TileMode.CLAMP);
        }

        //If the hue has changed we need to recreate the cache.
        if (satValBackgroundCache == null || satValBackgroundCache.value != hue) {

            if (satValBackgroundCache == null) {
                satValBackgroundCache = new BitmapCache();
            }

            //We create our bitmap in the cache if it doesn't exist.
            if (satValBackgroundCache.bitmap == null) {
                satValBackgroundCache.bitmap = Bitmap
                        .createBitmap(rect.width(), rect.height(), Config.ARGB_8888);
            }

            //We create the canvas once so we can draw on our bitmap and the hold on to it.
            if (satValBackgroundCache.canvas == null) {
                satValBackgroundCache.canvas = new Canvas(satValBackgroundCache.bitmap);
            }

            int rgb = Color.HSVToColor(new float[]{hue, 1f, 1f});

            satShader = new LinearGradient(rect.left, rect.top, rect.right, rect.top, 0xffffffff, rgb, TileMode.CLAMP);

            ComposeShader mShader = new ComposeShader(
                    valShader, satShader, PorterDuff.Mode.MULTIPLY);
            satValPaint.setShader(mShader);

            // Finally we draw on our canvas, the result will be
            // stored in our bitmap which is already in the cache.
            // Since this is drawn on a canvas not rendered on
            // screen it will automatically not be using the
            // hardware acceleration. And this was the code that
            // wasn't supported by hardware acceleration which mean
            // there is no need to turn it of anymore. The rest of
            // the view will still be hw accelerated.
            satValBackgroundCache.canvas.drawRect(0, 0,
                    satValBackgroundCache.bitmap.getWidth(),
                    satValBackgroundCache.bitmap.getHeight(),
                    satValPaint);

            //We set the hue value in our cache to which hue it was drawn with,
            //then we know that if it hasn't changed we can reuse our cached bitmap.
            satValBackgroundCache.value = hue;

        }

        // We draw our bitmap from the cached, if the hue has changed
        // then it was just recreated otherwise the old one will be used.
        canvas.drawBitmap(satValBackgroundCache.bitmap, null, rect, null);

        Point p = satValToPoint(sat, val);

        satValTrackerPaint.setColor(0xff000000);
        canvas.drawCircle(p.x, p.y, circleTrackerRadiusPx - DrawingUtils.dpToPx(getContext(), 1), satValTrackerPaint);

        satValTrackerPaint.setColor(0xffdddddd);
        canvas.drawCircle(p.x, p.y, circleTrackerRadiusPx, satValTrackerPaint);

    }

    private void drawSatValPanelHorizontal(Canvas canvas) {
        canvas.save();
        final Rect rect = satValRect;
        float unitWidth = rect.width() / (float) SAT_VAL_COUNT;
        Log.e("tag", "sss:" + unitWidth);

        if (BORDER_WIDTH_PX > 0) {
            borderPaint.setColor(borderColor);

//            canvas.drawRect(rect.left - BORDER_WIDTH_PX,
//                    rect.top - BORDER_WIDTH_PX,
//                    rect.right + BORDER_WIDTH_PX,
//                    rect.bottom + BORDER_WIDTH_PX,
//                    borderPaint);

            canvas.drawRoundRect(
                    rect.left - BORDER_WIDTH_PX,
                    rect.top - BORDER_WIDTH_PX,
                    rect.right + BORDER_WIDTH_PX,
                    rect.bottom + BORDER_WIDTH_PX,
                    50,50,
                    borderPaint);
        }

        Path mPath = new Path();
        mPath.addRoundRect(  rect.left - BORDER_WIDTH_PX,
                rect.top - BORDER_WIDTH_PX,
                rect.right + BORDER_WIDTH_PX,
                rect.bottom + BORDER_WIDTH_PX,
                50,50, Path.Direction.CCW);

        int rgb = Color.HSVToColor(new float[]{hue, 1f, 1f});

        valShader = new LinearGradient(rect.left, rect.top, rect.right, rect.top,
                new int[]{0xff000000, rgb, 0xffffffff}, new float[]{0, 0.5f, 1.0f}, TileMode.CLAMP);

        if (satValBackgroundCache == null || satValBackgroundCache.value != hue) {

            if (satValBackgroundCache == null) {
                satValBackgroundCache = new BitmapCache();
            }

            if (satValBackgroundCache.bitmap == null) {
                satValBackgroundCache.bitmap = Bitmap
                        .createBitmap(rect.width(), rect.height(), Config.ARGB_8888);
            }

            if (satValBackgroundCache.canvas == null) {
                satValBackgroundCache.canvas = new Canvas(satValBackgroundCache.bitmap);
            }
            //            satValPaint.setShader(valShader);

            float tempsat;
            float tempval;
            for (int i = 0; i < SAT_VAL_COUNT; i++) {
                tempsat = Math.min((SAT_VAL_COUNT - 1 - i) * 0.25f, 1);
                tempval = Math.min(i * 0.25f, 1);
                float[] hsv = new float[]{hue, tempsat, tempval};
                int color = Color.HSVToColor(hsv);
                satValPaint.setColor(color);
                satValBackgroundCache.canvas.drawRect(i * unitWidth, 0,
                        unitWidth + i * unitWidth,
                        satValBackgroundCache.bitmap.getHeight(),
                        satValPaint);
            }
            satValBackgroundCache.value = hue;

        }
        canvas.clipPath(mPath);
        canvas.drawBitmap(satValBackgroundCache.bitmap, null, rect, null);

        Point p = satValToPointHorizontal(sat, val);
        int index = (int) ((p.x - rect.left) / unitWidth);
        index = index > 8 ? 8 : index;

        RectF r = new RectF();
        r.left = rect.left + index * unitWidth;
        r.right = rect.left + (index + 1) * unitWidth;
        r.top = rect.top - sliderTrackerOffsetPx;
        r.bottom = rect.bottom + sliderTrackerOffsetPx;
        // canvas.drawRoundRect(r, 2, 2, hueAlphaTrackerPaint);
        canvas.restore();
    }


    private void drawHuePanel(Canvas canvas) {
        final Rect rect = hueRect;

        if (BORDER_WIDTH_PX > 0) {
            borderPaint.setColor(borderColor);

            canvas.drawRect(rect.left - BORDER_WIDTH_PX,
                    rect.top - BORDER_WIDTH_PX,
                    rect.right + BORDER_WIDTH_PX,
                    rect.bottom + BORDER_WIDTH_PX,
                    borderPaint);
        }

        if (hueBackgroundCache == null) {
            hueBackgroundCache = new BitmapCache();
            hueBackgroundCache.bitmap = Bitmap.createBitmap(rect.width(), rect.height(), Config.ARGB_8888);
            hueBackgroundCache.canvas = new Canvas(hueBackgroundCache.bitmap);

            int[] hueColors = new int[(int) (rect.height() + 0.5f)];

            // Generate array of all colors, will be drawn as individual lines.
            float h = 360f;
            for (int i = 0; i < hueColors.length; i++) {
                hueColors[i] = Color.HSVToColor(new float[]{h, 1f, 1f});
                h -= 360f / hueColors.length;
            }

            // Time to draw the hue color gradient,
            // its drawn as individual lines which
            // will be quite many when the resolution is high
            // and/or the panel is large.
            Paint linePaint = new Paint();
            linePaint.setStrokeWidth(0);
            for (int i = 0; i < hueColors.length; i++) {
                linePaint.setColor(hueColors[i]);
                hueBackgroundCache.canvas.drawLine(0, i, hueBackgroundCache.bitmap.getWidth(), i, linePaint);
            }
        }

        canvas.drawBitmap(hueBackgroundCache.bitmap, null, rect, null);

        Point p = hueToPoint(hue);

        RectF r = new RectF();
        r.left = rect.left - sliderTrackerOffsetPx;
        r.right = rect.right + sliderTrackerOffsetPx;
        r.top = p.y - (sliderTrackerSizePx / 2);
        r.bottom = p.y + (sliderTrackerSizePx / 2);

        canvas.drawRoundRect(r, 2, 2, hueAlphaTrackerPaint);
    }


    private void drawHuePanelHorizontal(Canvas canvas) {
        final Rect rect = hueRect;
        Path path;
        if (BORDER_WIDTH_PX > 0) {
            borderPaint.setColor(borderColor);

            //            canvas.drawRect(
            //                    rect.left - BORDER_WIDTH_PX,
            //                    rect.top - BORDER_WIDTH_PX,
            //                    rect.right + BORDER_WIDTH_PX,
            //                    rect.bottom + BORDER_WIDTH_PX,
            //                    borderPaint);

            canvas.drawRoundRect(
                    rect.left - BORDER_WIDTH_PX,
                    rect.top - BORDER_WIDTH_PX,
                    rect.right + BORDER_WIDTH_PX,
                    rect.bottom + BORDER_WIDTH_PX,
                    50, 50,
                    borderPaint
            );

            path = new Path();
            path.addRoundRect(rect.left - BORDER_WIDTH_PX,
                    rect.top - BORDER_WIDTH_PX,
                    rect.right + BORDER_WIDTH_PX,
                    rect.bottom + BORDER_WIDTH_PX,
                    50, 50,
                    Path.Direction.CCW);
        }

        if (hueBackgroundCache == null) {
            hueBackgroundCache = new BitmapCache();
            hueBackgroundCache.bitmap = Bitmap.createBitmap(rect.width(), rect.height(), Config.ARGB_8888);
            hueBackgroundCache.canvas = new Canvas(hueBackgroundCache.bitmap);

            int[] hueColors = new int[(int) (rect.width() + 0.5f)];

            float h = 360f;
            for (int i = 0; i < hueColors.length; i++) {
                hueColors[i] = Color.HSVToColor(new float[]{h, 1f, 1f});
                h -= 360f / hueColors.length;
            }

            Paint linePaint = new Paint();
            linePaint.setStrokeWidth(0);
            for (int i = 0; i < 20; i++) {
                linePaint.setColor(hueColors[i]);
                hueBackgroundCache.canvas.drawLine(i, 0, i, hueBackgroundCache.bitmap.getHeight(), linePaint);
            }
        }

        canvas.clipPath(path);
        canvas.drawBitmap(hueBackgroundCache.bitmap, null, rect, null);
        Point p = hueToPointHorizontal(hue);

        RectF r = new RectF();
        r.left = p.x - (sliderTrackerSizePx / 2);
        r.right = p.x + (sliderTrackerSizePx / 2);
        r.top = rect.top - sliderTrackerOffsetPx;
        r.bottom = rect.bottom + sliderTrackerOffsetPx;
        canvas.drawLine(r.left, r.top, r.left, r.bottom, hueAlphaTrackerPaint);
        // canvas.drawRoundRect(r, 1, 1, hueAlphaTrackerPaint);
    }


    private void drawAlphaPanel(Canvas canvas) {
    /*
     * Will be drawn with hw acceleration, very fast.
		 * Also the AlphaPatternDrawable is backed by a bitmap
		 * generated only once if the size does not change.
		 */

        if (!showAlphaPanel || alphaRect == null || alphaPatternDrawable == null)
            return;

        final Rect rect = alphaRect;

        if (BORDER_WIDTH_PX > 0) {
            borderPaint.setColor(borderColor);
            canvas.drawRect(rect.left - BORDER_WIDTH_PX,
                    rect.top - BORDER_WIDTH_PX,
                    rect.right + BORDER_WIDTH_PX,
                    rect.bottom + BORDER_WIDTH_PX,
                    borderPaint);

        }

        alphaPatternDrawable.draw(canvas);

        float[] hsv = new float[]{hue, sat, val};
        int color = Color.HSVToColor(hsv);
        int acolor = Color.HSVToColor(0, hsv);

        alphaShader = new LinearGradient(rect.left, rect.top, rect.right, rect.top,
                color, acolor, TileMode.CLAMP);

        alphaPaint.setShader(alphaShader);

        canvas.drawRect(rect, alphaPaint);

        if (alphaSliderText != null && !alphaSliderText.equals("")) {
            canvas.drawText(alphaSliderText, rect.centerX(), rect.centerY() +
                    DrawingUtils.dpToPx(getContext(), 4), alphaTextPaint);
        }

        Point p = alphaToPoint(alpha);

        RectF r = new RectF();
        r.left = p.x - (sliderTrackerSizePx / 2);
        r.right = p.x + (sliderTrackerSizePx / 2);
        r.top = rect.top - sliderTrackerOffsetPx;
        r.bottom = rect.bottom + sliderTrackerOffsetPx;

        canvas.drawRoundRect(r, 2, 2, hueAlphaTrackerPaint);
    }

    private Point hueToPoint(float hue) {

        final Rect rect = hueRect;
        final float height = rect.height();

        Point p = new Point();

        p.y = (int) (height - (hue * height / 360f) + rect.top);
        p.x = rect.left;

        return p;
    }

    private Point hueToPointHorizontal(float hue) {

        final Rect rect = hueRect;
        final float width = rect.width();

        Point p = new Point();

        p.y = rect.top;
        p.x = (int) (width - (hue * width / 360f) + rect.left);

        return p;
    }

    private Point satValToPoint(float sat, float val) {

        final Rect rect = satValRect;
        final float height = rect.height();
        final float width = rect.width();

        Point p = new Point();

        p.x = (int) (sat * width + rect.left);
        p.y = (int) ((1f - val) * height + rect.top);

        return p;
    }

    private Point satValToPointHorizontal(float sat, float val) {

        final Rect rect = satValRect;
        final float width = rect.width();

        Point p = new Point();

        if (val < 1) {
            p.x = rect.left + (int) (val * width / 2);
        } else if (sat < 1) {
            p.x = rect.left + (int) (width - sat * width / 2);
        } else {
            p.x = rect.left + (int) (width / 2);
        }
        p.y = rect.top;

        return p;
    }

    private Point alphaToPoint(int alpha) {

        final Rect rect = alphaRect;
        final float width = rect.width();

        Point p = new Point();

        p.x = (int) (width - (alpha * width / 0xff) + rect.left);
        p.y = rect.top;

        return p;

    }

    private float[] pointToSatVal(float x, float y) {

        final Rect rect = satValRect;
        float[] result = new float[2];

        float width = rect.width();
        float height = rect.height();

        if (x < rect.left) {
            x = 0f;
        } else if (x > rect.right) {
            x = width;
        } else {
            x = x - rect.left;
        }

        if (y < rect.top) {
            y = 0f;
        } else if (y > rect.bottom) {
            y = height;
        } else {
            y = y - rect.top;
        }

        result[0] = 1.f / width * x;
        result[1] = 1.f - (1.f / height * y);

        return result;
    }

    private float[] pointToSatValHorizontal(float x) {

        final Rect rect = satValRect;
        float[] result = new float[2];

        float width = rect.width();

        if (x < rect.left) {
            x = 0f;
        } else if (x > rect.right) {
            x = width;
        } else {
            x = x - rect.left;
        }

        float indexF = x * SAT_VAL_COUNT / width;
        int index = (int) indexF;

        if (indexF > index) {
            result[0] = Math.min((SAT_VAL_COUNT - 1 - index) * 0.25f, 1);
            result[1] = Math.min(index * 0.25f, 1);
        } else {
            result[0] = Math.min((SAT_VAL_COUNT - index) * 0.25f, 1);
            result[1] = Math.min((index - 1) * 0.25f, 1);
        }
        //        if (x < rect.left) {
        //            x = 0f;
        //        } else if (x > rect.right) {
        //            x = width;
        //        } else {
        //            x = x - rect.left;
        //        }
        //
        //        result[0] = x <= width / 2 ? 1 : (2 - 2 * x / width);
        //        result[1] = x >= width / 2 ? 1 : 2 * x / width;


        return result;
    }

    private float pointToHue(float y) {

        final Rect rect = hueRect;

        float height = rect.height();

        if (y < rect.top) {
            y = 0f;
        } else if (y > rect.bottom) {
            y = height;
        } else {
            y = y - rect.top;
        }

        float hue = 360f - (y * 360f / height);

        return hue;
    }

    private float pointToHueHorizontal(float y) {

        final Rect rect = hueRect;

        float width = rect.right - rect.left;

        if (y < rect.left) {
            y = 0f;
        } else if (y > rect.right) {
            y = width;
        } else {
            y = y - rect.left;
        }
        float hue = 360f - (y * 360f / width);
        return hue;
    }

    private int pointToAlpha(int x) {

        final Rect rect = alphaRect;
        final int width = rect.width();

        if (x < rect.left) {
            x = 0;
        } else if (x > rect.right) {
            x = width;
        } else {
            x = x - rect.left;
        }

        return 0xff - (x * 0xff / width);

    }

    @Override
    public boolean onTouchEvent(MotionEvent event) {
        boolean update = false;

        switch (event.getAction()) {

            case MotionEvent.ACTION_DOWN:
                startTouchPoint = new Point((int) event.getX(), (int) event.getY());
                update = moveTrackersIfNeeded(event);
                break;
            case MotionEvent.ACTION_MOVE:
                update = moveTrackersIfNeeded(event);
                break;
            case MotionEvent.ACTION_UP:
                startTouchPoint = null;
                update = moveTrackersIfNeeded(event);
                break;
        }

        if (update) {
            if (onColorChangedListener != null) {
                onColorChangedListener.onColorChanged(Color.HSVToColor(alpha, new float[]{hue, sat, val}));
            }
            invalidate();
            return true;
        }

        return super.onTouchEvent(event);
    }

    private boolean moveTrackersIfNeeded(MotionEvent event) {
        if (startTouchPoint == null) {
            return false;
        }

        boolean update = false;

        int startX = startTouchPoint.x;
        int startY = startTouchPoint.y;

        if (hueRect != null && hueRect.contains(startX, startY)) {
            hue = pointToHueHorizontal(event.getX());
            update = true;
        }

        //        数值色彩条注释
        //        if (hueRect.contains(startX, startY)) {
        //            hue = pointToHue(event.getY());
        //            update = true;
        //        }

        else if (satValRect.contains(startX, startY)) {
            float[] result = pointToSatValHorizontal(event.getX());

            sat = result[0];
            val = result[1];

            update = true;
        }
        //        透明度注释
        //        else if (alphaRect != null && alphaRect.contains(startX, startY)) {
        //            alpha = pointToAlpha((int) event.getX());
        //
        //            update = true;
        //        }

        return update;
    }

    @Override
    protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
        int finalWidth;
        int finalHeight;

        int widthMode = MeasureSpec.getMode(widthMeasureSpec);
        int heightMode = MeasureSpec.getMode(heightMeasureSpec);

        int widthAllowed = MeasureSpec.getSize(widthMeasureSpec) - getPaddingLeft() - getPaddingRight();
        int heightAllowed =  MeasureSpec.getSize(heightMeasureSpec) - getPaddingBottom() - getPaddingTop();

        if (heightAllowed > alphaPanelHeightPx * 2 + barSpaceHeightPx + sliderTrackerOffsetPx * 2) {
            heightAllowed = alphaPanelHeightPx * 2 + barSpaceHeightPx + sliderTrackerOffsetPx * 2;
        }

        if (widthMode == MeasureSpec.EXACTLY || heightMode == MeasureSpec.EXACTLY) {
            //A exact value has been set in either direction, we need to stay within this size.

            if (widthMode == MeasureSpec.EXACTLY && heightMode != MeasureSpec.EXACTLY) {
                //The with has been specified exactly, we need to adopt the height to fit.
                int h = (widthAllowed - panelSpacingPx - huePanelWidthPx);

                if (showAlphaPanel) {
                    h += panelSpacingPx + alphaPanelHeightPx;
                }

                if (h > heightAllowed) {
                    //We can't fit the view in this container, set the size to whatever was allowed.
                    finalHeight = heightAllowed;
                } else {
                    finalHeight = h;
                }

                finalWidth = widthAllowed;

            } else if (heightMode == MeasureSpec.EXACTLY && widthMode != MeasureSpec.EXACTLY) {
                //The height has been specified exactly, we need to stay within this height and adopt the width.

                int w = (heightAllowed + panelSpacingPx + huePanelWidthPx);

                if (showAlphaPanel) {
                    w -= (panelSpacingPx + alphaPanelHeightPx);
                }

                if (w > widthAllowed) {
                    //we can't fit within this container, set the size to whatever was allowed.
                    finalWidth = widthAllowed;
                } else {
                    finalWidth = w;
                }

                finalHeight = heightAllowed;

            } else {
                //If we get here the dev has set the width and height to exact sizes. For example match_parent or 300dp.
                //This will mean that the sat/val panel will not be square but it doesn't matter. It will work anyway.
                //In all other senarios our goal is to make that panel square.

                //We set the sizes to exactly what we were told.
                finalWidth = widthAllowed;
                finalHeight = heightAllowed;
            }

        } else {
            //If no exact size has been set we try to make our view as big as possible
            //within the allowed space.

            //Calculate the needed width to layout using max allowed height.
            int widthNeeded = (heightAllowed + panelSpacingPx + huePanelWidthPx);

            //Calculate the needed height to layout using max allowed width.
            int heightNeeded = (widthAllowed - panelSpacingPx - huePanelWidthPx);

            if (showAlphaPanel) {
                widthNeeded -= (panelSpacingPx + alphaPanelHeightPx);
                heightNeeded += panelSpacingPx + alphaPanelHeightPx;
            }

            boolean widthOk = false;
            boolean heightOk = false;

            if (widthNeeded <= widthAllowed) {
                widthOk = true;
            }

            if (heightNeeded <= heightAllowed) {
                heightOk = true;
            }

            if (widthOk && heightOk) {
                finalWidth = widthAllowed;
                finalHeight = heightNeeded;
            } else if (!heightOk && widthOk) {
                finalHeight = heightAllowed;
                finalWidth = widthNeeded;
            } else if (!widthOk && heightOk) {
                finalHeight = heightNeeded;
                finalWidth = widthAllowed;
            } else {
                finalHeight = heightAllowed;
                finalWidth = widthAllowed;
            }

        }

        setMeasuredDimension(finalWidth + getPaddingLeft() + getPaddingRight(),
                finalHeight + getPaddingTop() + getPaddingBottom());
    }

    private int getPreferredWidth() {
        //Our preferred width and height is 200dp for the square sat / val rectangle.
        int width = DrawingUtils.dpToPx(getContext(), 200);

        return (width + huePanelWidthPx + panelSpacingPx);
    }

    private int getPreferredHeight() {
        int height = DrawingUtils.dpToPx(getContext(), 200);

        if (showAlphaPanel) {
            height += panelSpacingPx + alphaPanelHeightPx;
        }
        return height;
    }

    @Override
    public int getPaddingTop() {
        return Math.max(super.getPaddingTop(), mRequiredPadding);
    }

    @Override
    public int getPaddingBottom() {
        return Math.max(super.getPaddingBottom(), mRequiredPadding);
    }

    @Override
    public int getPaddingLeft() {
        return Math.max(super.getPaddingLeft(), mRequiredPadding);
    }

    @Override
    public int getPaddingRight() {
        return Math.max(super.getPaddingRight(), mRequiredPadding);
    }

    @Override
    protected void onSizeChanged(int w, int h, int oldw, int oldh) {
        super.onSizeChanged(w, h, oldw, oldh);

        drawingRect = new Rect();
        drawingRect.left = getPaddingLeft();
        drawingRect.right = w - getPaddingRight();
        drawingRect.top = getPaddingTop();
        drawingRect.bottom = h - getPaddingBottom();

        //The need to be recreated because they depend on the size of the view.
        valShader = null;
        satShader = null;
        alphaShader = null;

        // Clear those bitmap caches since the size may have changed.
        satValBackgroundCache = null;
        hueBackgroundCache = null;

        //        setUpHueRect();
        //        setUpSatValRect();
        setUpHueRectHorizontal();
        //        setUpAlphaRect();
        setUpSatValRectHorizontal(w, h);
    }

    private void setUpSatValRect() {
        //Calculate the size for the big color rectangle.
        final Rect dRect = drawingRect;

        int left = dRect.left + BORDER_WIDTH_PX;
        int top = dRect.top + BORDER_WIDTH_PX;
        int bottom = dRect.bottom - BORDER_WIDTH_PX;
        int right = dRect.right - BORDER_WIDTH_PX - panelSpacingPx - huePanelWidthPx;

        if (showAlphaPanel) {
            bottom -= (alphaPanelHeightPx + panelSpacingPx);
        }

        satValRect = new Rect(left, top, right, bottom);
    }

    private void setUpSatValRectHorizontal(int w, int h) {
        satValRect = new Rect(hueRect.left + w / 8, hueRect.top - alphaPanelHeightPx - barSpaceHeightPx, hueRect.right - w / 8, hueRect.bottom - alphaPanelHeightPx - barSpaceHeightPx);
    }


    private void setUpHueRectHorizontal() {
        //Calculate the size for the hue slider on the left.
        final Rect dRect = drawingRect;

        int left = dRect.left + BORDER_WIDTH_PX;
        int top = dRect.bottom - alphaPanelHeightPx + BORDER_WIDTH_PX;
        int bottom = dRect.bottom - BORDER_WIDTH_PX;
        int right = dRect.right - BORDER_WIDTH_PX;

        hueRect = new Rect(left, top, right, bottom);

        //        alphaPatternDrawable = new AlphaPatternDrawable(DrawingUtils.dpToPx(getContext(), 4));
        //        alphaPatternDrawable.setBounds(Math.round(alphaRect.left), Math
        //                .round(alphaRect.top), Math.round(alphaRect.right), Math
        //                .round(alphaRect.bottom));
    }


    //    这里调整水平条的位置

    /**
     * Set a OnColorChangedListener to get notified when the color
     * selected by the user has changed.
     *
     * @param listener the listener
     */
    public void setOnColorChangedListener(OnColorChangedListener listener) {
        onColorChangedListener = listener;
    }

    /**
     * Get the current color this view is showing.
     *
     * @return the current color.
     */
    public int getColor() {
        return Color.HSVToColor(alpha, new float[]{hue, sat, val});
    }

    /**
     * Set the color the view should show.
     *
     * @param color The color that should be selected. #argb
     */
    public void setColor(int color) {
        setColor(color, false);
    }

    /**
     * Set the color this view should show.
     *
     * @param color    The color that should be selected. #argb
     * @param callback If you want to get a callback to your OnColorChangedListener.
     */
    public void setColor(int color, boolean callback) {

        int alpha = Color.alpha(color);
        int red = Color.red(color);
        int blue = Color.blue(color);
        int green = Color.green(color);

        float[] hsv = new float[3];

        Color.RGBToHSV(red, green, blue, hsv);

        this.alpha = alpha;
        hue = hsv[0];
        sat = hsv[1];
        val = hsv[2];

        //      修正颜色为模块上的颜色
        if (satValRect != null) {
            Point p = satValToPointHorizontal(sat, val);
            float unitWidth = satValRect.width() / (float) SAT_VAL_COUNT;
            int index = (int) ((p.x - satValRect.left) / unitWidth);
            index = index > SAT_VAL_COUNT - 1 ? SAT_VAL_COUNT - 1 : index;
            sat = Math.min((SAT_VAL_COUNT - 1 - index) * 0.25f, 1);
            val = Math.min(index * 0.25f, 1);
        }

        if (callback && onColorChangedListener != null) {
            onColorChangedListener.onColorChanged(Color.HSVToColor(this.alpha, new float[]{hue, sat, val}));
        }

        invalidate();
    }

    /**
     * Set if the user is allowed to adjust the alpha panel. Default is false.
     * If it is set to false no alpha will be set.
     *
     * @param visible {@code true} to show the alpha slider
     */
    public void setAlphaSliderVisible(boolean visible) {
        if (showAlphaPanel != visible) {
            showAlphaPanel = visible;

			/*
       * Force recreation.
			 */
            valShader = null;
            satShader = null;
            alphaShader = null;
            hueBackgroundCache = null;
            satValBackgroundCache = null;

            requestLayout();
        }

    }

    /**
     * Set the color of the tracker slider on the hue and alpha panel.
     *
     * @param color a color value
     */
    public void setSliderTrackerColor(int color) {
        sliderTrackerColor = color;
        hueAlphaTrackerPaint.setColor(sliderTrackerColor);
        invalidate();
    }

    /**
     * Get color of the tracker slider on the hue and alpha panel.
     *
     * @return the color value
     */
    public int getSliderTrackerColor() {
        return sliderTrackerColor;
    }

    /**
     * Set the color of the border surrounding all panels.
     *
     * @param color a color value
     */
    public void setBorderColor(int color) {
        borderColor = color;
        invalidate();
    }

    /**
     * Get the color of the border surrounding all panels.
     */
    public int getBorderColor() {
        return borderColor;
    }

    /**
     * Set the text that should be shown in the
     * alpha slider. Set to null to disable text.
     *
     * @param res string resource id.
     */
    public void setAlphaSliderText(int res) {
        String text = getContext().getString(res);
        setAlphaSliderText(text);
    }

    /**
     * Set the text that should be shown in the
     * alpha slider. Set to null to disable text.
     *
     * @param text Text that should be shown.
     */
    public void setAlphaSliderText(String text) {
        alphaSliderText = text;
        invalidate();
    }

    /**
     * Get the current value of the text
     * that will be shown in the alpha
     * slider.
     *
     * @return the slider text
     */
    public String getAlphaSliderText() {
        return alphaSliderText;
    }

    private class BitmapCache {

        public Canvas canvas;
        public Bitmap bitmap;
        public float value;
    }

    public interface OnColorChangedListener {

        void onColorChanged(int newColor);
    }

}
